Slashdot Mirror

carmendrahl writes "Why do foods taste good together? Scientists aren't anywhere near figuring it out, but that hasn't stopped one popular idea from spawning a company dedicated to discovering avant-garde new pairings. The idea, called flavor-pairing theory, says that if foods share a key odor molecule, they'll pair well. But some scientists say the idea can't explain all cuisines, and another contends his work with tomato flavor (abstract) shows that flavor pairing is 'a gimmick by a chef who is practicing biology without a license.'"

A new study suggests that the sophistication of the human brain may be due to a mistake in cell division long ago. From the article: "A copyediting error appears to be responsible for critical features of the human brain that distinguish us from our closest primate kin, new research finds. When tested out in mice, researchers found this 'error' caused the rodents' brain cells to move into place faster and enabled more connections between brain cells."

sciencehabit writes "Michael Snyder has taken 'know thyself' to the next level. Over a 14-month period, the molecular geneticist analyzed his blood 20 different times to pluck out a wide variety of biochemical data depicting the status of his body's immune system, metabolism, and gene activity. In yesterday's issue of Cell (abstract), Snyder and a team of 40 other researchers present the results of this extraordinarily detailed look at his body, which they call an integrative personal omics profile (iPOP) because it combines cutting-edge scientific fields such as genomics (study of one's DNA), metabolomics (study of metabolism), and proteomics (study of proteins). Instead of seeing a snapshot of the body taken during the typical visit to a doctor's office, iPOP effectively offers an IMAX movie, which in Snyder's case had the added drama of charting his response to two viral infections and the emergence of type 2 diabetes."

sciencehabit writes "Scientists have long known that a group of viruses called bacteriophages have a knack for infiltrating bacteria and that some begin their attack with a protein spike. But the tip of this spike is so small that no one knew what it was made of or exactly how it worked. Now a team of researchers has found a single iron atom at the head of the spike, a discovery that suggests phages enter bacteria in a different way than surmised (abstract)."

FatLittleMonkey writes "A new study on mice suggests damage caused by diseases like Multiple sclerosis, as well as natural aging, can be reversed by an infusion of stem cell rich blood from younger mice. Multiple sclerosis is a chronic inflammatory disease that erodes the fatty myelin sheaths around the axons of the brain and spinal cord, and can result in serious disability. Similar effects occur naturally with aging. From New Scientist: 'White blood cells called macrophages from the young mice gathered at the sites of myelin damage. Macrophages engulf and destroy pathogens and debris, including destroyed myelin. "We know this debris inhibits regeneration, so clearing it up is important," says team member Amy Wagers of Harvard University.' Here's the academic paper's abstract."

Several readers tipped news that U.S. scientists have created 'chimeric' monkeys, made with genetic material from as many as six different genomes (abstract). This is significant because it's the first time researchers have used the technique on a primate. From the article: "Researchers took very early stem cells, called totipotent stem cells, from separate developing embryos and basically glued them together, implanting the mixed embryos into surrogate mother monkeys. The cells — from totally different sources — didn’t fuse, but worked together in harmony, forming fully fledged, normal, healthy animals. ... The key here was the scientists’ use of totipotent cells, so named for their ability to differentiate into the totality of possible cells in an animal. A totipotent cell can give rise to a whole animal. Pluripotent stem cells, the type most frequently used in stem cell research, can differentiate into any cell in the body, but can’t become a whole animal, and can’t make other embryonic tissues like a placenta. Totipotent stem cells are only derived from the very earliest stages of a zygote, mere days after fertilization. In humans, totipotent cells differentiate into pluripotent cells after four days."

RogerRoast writes "According to an article published in the journal Cell, molecular signals from fat cell (adipocyte) precursors under the skin are necessary to spur hair growth in mice. Yale researchers report in the paper that these cells produce molecules called PDGF (platelet derived growth factors), which are necessary to produce hair growth. The discovery of the source of signals that trigger hair growth may lead to new treatments for baldness. The trick is in getting adipocyte precursors under the skin to talk to stem cells at the base of the hair follicles."

sciencehabit writes "A small number of people in the world don't have fingerprints. The condition is known as adermatoglyphia, and one scientist has dubbed it the 'immigration delay disease' because sufferers have such a hard time entering foreign countries. In addition to smooth fingertips, they also produce less hand sweat than the average person. Now researchers have identified the genetic mutation behind the condition (abstract)."

arshadk writes with this excerpt from the BBC about researchers at Oxford University who found that inducing a small current in a subject's parietal lobe boosted their capacity for numerical learning: "The current could not be felt, and had no measurable effect on other brain functions. As it was turned on, the volunteers tried to learn a puzzle which involved substituting numbers for symbols. Those given the current from right to left across the parietal lobe did significantly better when given, compared to those who were given no electrical stimulation. The direction of the current was important — those given stimulation running in the opposite direction, left to right, did markedly worse at these puzzles than those given no current, with their ability matching that of an average six-year-old. The effects were not short-lived, either. When the volunteers whose performance improved was re-tested six months later, the benefits appear to have persisted. There was no wider effect on general maths ability in either group, just on the ability to complete the puzzles learned as the current was applied."

juliangamble writes "Scientists reported Thursday they had developed a technique that can quickly create safe alternatives to human embryonic stem cells, a major advance toward developing a less controversial approach for treating a host of medical problems. The researchers published a series of experiments showing they can use laboratory-made versions of naturally occurring biological signals to quickly convert ordinary skin cells into cells that appear virtually identical to embryonic stem cells. Moreover, the same strategy can then coax those cells to morph into specific tissues that would be a perfect match for transplantation into patients."

gmp writes "The NY Times and the Wall Street Journal are reporting on a new paper, published in the science journal Cell Stem Cell, where scientists, inspired by the ability of newts and other lower organisms to regrow lost limbs, have demonstrated that adult mammalian cells can be made to regenerate by suppressing a pair of anti-cancer genes. 'Interfering with tumor suppressor genes is a dangerous game, but Dr. Pomerantz said the genes could be inhibited for just a short period by applying the right dose of drug. When the drug has dissipated, the antitumor function of the gene would be restored. Finding the right combination of genes to suppress was a critical step in the new research. One of the two tumor suppressor genes is an ancient gene, known as Rb, which is naturally inactivated in newts and fish when they start regenerating tissue. Mammals possess both the Rb gene and a backup, called the Arf gene, which will close down a cancer-prone cell if Rb fails to do so.' Is regeneration nature's default, only turned off by our evolved defenses against cancer?"

Penguinsh- writes "Patients seeking stem cell treatments now have a guide to the various clinics purporting to offer such treatments. Not exactly a Zagat or Michelin, but much more objective information from qualified experts than was available before in one place. Created by the International Society for Stem Cell Research, the guide was the brainchild of a task force convened by former ISSCR President Irving Weissman of the Stanford Institute for Stem Cell Research and Regenerative Medicine."

An anonymous reader writes "Researchers have discovered a promising method to regrow damaged nerves in adults. Brain and spinal-cord injuries typically leave people with permanent impairment because the injured nerve fibers (axons) cannot regrow. A study from Harvard and Carleton University, published in the December 10 issue of the journal Neuron, shows that axons can regenerate vigorously in a mouse model when a gene that suppresses natural growth factors is deleted. Here is the journal article (subscription required to view more than the abstract)."

TheClockworkSoul writes "Researchers at the University of Oxford have devised a way to write memories onto the brains of flies, revealing which brain cells are involved in making bad memories. The researchers said that in flies, just 12 brain cells were responsible for what is known as 'associative learning.' They modified these neurons by adding receptors for ATP, so that the cells activate in the presence of the chemical, but since ATP isn't usually found floating around a fly's brain, the flies generally behave just like any other fly. Most interestingly, however, is that the scientists then injected ATP into the flies' brains, in a form that was locked inside a light-sensitive chemical cage. When they shined a laser on the fly brains, the ATP was released, and the 'associative learning' cells were activated. The laser flash was paired with an odor, effectively giving the fly a memory of a bad experience with the odor that it never actually had, such that it then avoided the odor in later experiments. The researchers describe their findings in the journal Cell."

rift321 writes "Scientists safely created induced pluripotent stem cells from human stem cells, and grew them in a petri dish. The previous methods for creating iPSC's involved the use of retroviruses, which rendered the stem cells unacceptable for human implantation due to an increased risk of cancer and mutations. The researchers used a safer, albeit slower process to modify the skin cells, using a cell-penetrating peptide to deliver the needed genes into the cell (PDF). I'd like to hear if anyone has some insight into exactly how close that brings us to everyday-use of stem cells for regenerative therapy, and exactly what obstacles remain before such therapies can be put to use."

archatheist writes "Researchers at the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany have engineered a mouse whose FOXP2 gene has been swapped out for a different (human) version. This is interesting because the gene is implicated in human language, and this has changed how mice squeak. 'In a region of the brain called the basal ganglia, known in people to be involved in language, the humanized mice grew nerve cells that had a more complex structure. Baby mice utter ultrasonic whistles when removed from their mothers. The humanized baby mice, when isolated, made whistles that had a slightly lower pitch, among other differences, Dr. Enard says. Dr. Enard argues that putting significant human genes into mice is the only feasible way of exploring the essential differences between people and chimps, our closest living relatives.' The academic paper was published in Cell."

Wandering Wombat tips a BBC story about researchers from Imperial College London who were able to stimulate stem cell production by a factor of 100 in the bone marrow of mice. Such stem cells are released by the marrow to help with the regeneration of damaged bone and tissue. "Techniques already exist to increase the numbers of blood cell producing stem cells from the bone marrow, but the study focuses on two other types — endothelial, which produce the cells which make up our blood vessels, and mesenchymal, which can become bone or cartilage cells." The scientists hope that the increased production rate could be used to greatly speed tissue repair and to allow recovery from wounds that would otherwise be too severe. "There are also hopes that the technique could help damp down autoimmune diseases such as rheumatoid arthritis, where the body's immune system attacks its own tissues. Mesenchymal stem cells are known to have the ability to damp down the immune system." The full research paper is available at Cell Stem Cell.

resistant writes "Researchers at a Toronto hospital have stumbled upon a dramatic treatment for mouse diabetes, with large implications for the treatment of diabetes in humans. From the article: 'The islet inflammation cleared up and the diabetes was gone. Some have remained in that state for as long as four months, with just one injection... They also discovered that their treatments curbed the insulin resistance that is the hallmark of Type 2 diabetes, and that insulin resistance is a major factor in Type 1 diabetes, suggesting the two illnesses are quite similar.'"
Update: 12/17 03:46 GMT by KD : resistant adds that the Cell Journal article is posted as a PDF as well as in plain text.

resistant writes "Researchers at a Toronto hospital have stumbled upon a dramatic treatment for mouse diabetes, with large implications for the treatment of diabetes in humans. From the article: 'The islet inflammation cleared up and the diabetes was gone. Some have remained in that state for as long as four months, with just one injection... They also discovered that their treatments curbed the insulin resistance that is the hallmark of Type 2 diabetes, and that insulin resistance is a major factor in Type 1 diabetes, suggesting the two illnesses are quite similar.'"
Update: 12/17 03:46 GMT by KD : resistant adds that the Cell Journal article is posted as a PDF as well as in plain text.

resistant writes "Researchers at a Toronto hospital have stumbled upon a dramatic treatment for mouse diabetes, with large implications for the treatment of diabetes in humans. From the article: 'The islet inflammation cleared up and the diabetes was gone. Some have remained in that state for as long as four months, with just one injection... They also discovered that their treatments curbed the insulin resistance that is the hallmark of Type 2 diabetes, and that insulin resistance is a major factor in Type 1 diabetes, suggesting the two illnesses are quite similar.'"
Update: 12/17 03:46 GMT by KD : resistant adds that the Cell Journal article is posted as a PDF as well as in plain text.

DrJay writes "Scientist report that introducing only four genes to adult cells is sufficient to convert them to something that looks and acts remarkably like an embryonic stem cell. Although some of the details need to be worked out, if this technique is generally applicable, it may allow the production of an essentially unlimited supply of stem cells. There is a subscription-only report, and Ars Technica's science journal describes the results in some detail for those without subscriptions."

Rollie Hawk writes "This could be a huge development for the ultra-lazy (and ultra-stinky, for that matter). It seems that Yale scientists have managed to engineer a remote control system for flies. According to their study (recently featured in Cell), specific neurons can be stimulated by lasers to control basic functions in fruit flies such as jumping, walking, and flying. The study, of course, was performed with wider ranging applications in mind than bringing new meaning to the saying, "Shew, fly!" The overall goal was to determine whether isolated-neuron stimulation could be used to control basic motor activities and even more complex behavior. Everyone since the days of Mary Shelly has obviously known that there are connections between electrical current and muscle movement. What makes this study unique is that it does not use traditional electrodes, which lack the single-neuron specificity of lasers. Eventually, this could lead to mappings that will give humans knowledge and possibly control over not only complex movements but less-than desirable mental functions such as aggression and overeating."

nexex writes "From the Washington Post, 'Scientists yesterday said they have discovered a long-sought "master gene" in embryonic stem cells that is largely responsible for giving those cells their unique regenerative and therapeutic potential.' The report summarizes an article in the newest issue of the scientific journal, Cell."

nexex writes "From the Washington Post, 'Scientists yesterday said they have discovered a long-sought "master gene" in embryonic stem cells that is largely responsible for giving those cells their unique regenerative and therapeutic potential.' The report summarizes an article in the newest issue of the scientific journal, Cell."